At 克兰菲尔德 we want to make sure that the outcomes of our research reach their full potential. If you are interested in how 克兰菲尔德’s innovative ideas and technology can boost your business, we would be delighted to talk to you.

Dedicated to solving real-life problems, we work in close collaboration with many organisations to turn ideas and innovation into reality. mg游戏平台哪里下载为自己的灵活和创业精神而自豪,并有能力将项目从概念到实际交付.


The introduction of new technology can come with exciting commercial benefits as well as risks. To encourage your business to take on new ideas and innovations, our licensing terms are designed to inspire you to take this leap. During the process we will work closely with you to maximise success.

如果您正在寻求特定的技术或业务解决方案,mg游戏平台哪里下载将建议您参阅mg游戏平台哪里下载的研究 & Innovation Office who will provide support to ensure a smooth, timely and successful transfer.

Some examples of our available technologies can be found below.

Carbon stabilisation reactor (CSR)

A platform technology offering biogas pre-treatment from anaerobic digestion (AD), 提高联合热电厂的运作效率,并尽量减少碳足迹.

The technology is a pre-treatment device unit for controlling the CO2/CH4 ratio in biogas derived from AD. Synergy between AD and CHP is maximised when biogas is methane rich (ca. 65%). Biogas with a high proportion of CO2 lowers the burning velocity, 降低功率输出, 热电联产系统的盈利能力和投资回报,同时增加了废气排放中未燃烧燃料和温室气体的浓度. The CSR device enables precise control of CO2/CH4 ratio through a unique phase separation and selective CO2 extraction technology, and can be easily integrated into existing biogas piping infrastructure, allowing for flexible biogas pre-treatment for the broad range of AD plants and processes, from smaller scale on-farm AD to wastewater treatment plants and all scales in between.

A priority patent application has been filed protecting the method to control the CO2/CH4 concentrations and its applications for biogas plants, 并作为CHP的预处理单元,用于持续生产热能和电能. 克兰菲尔德 welcomes contact from parties interested in exploiting this opportunity.

A novel surface jet pump apparatus for the oil-and-gas and process industries

Enhancing oil recovery under conditions of multi-phase motive flow.

谁有冰球突破网站开发了一种新型喷射泵装置,可以从低压井中补充油流,而不需要单独的电动增压泵. 喷射泵是基于文丘里原理,并利用可用的高压管线提供动力流,在井口产生吸力, and are therefore energy efficient and, 没有活动部件的, 需要较低的维护. 然而,现有喷射泵的一个主要缺点是,如果高压管道中含有液体和气体的混合物,它们会迅速堵塞. 谁有冰球突破网站’s novel pump design incorporates a compact, 整体式相分离器,使其能够在广泛的液体和气体混合物的动力流体条件下有效工作, without interrupting production flow.


High rate, low-cost, lightweight structural parts from composites


研究ers at 谁有冰球突破网站 have developed new capabilities for low-cost, 制造率高, lightweight structural parts. This is based on know-how in design and structural optimisation. 这篇作文, 确定单向纤维胶带的位置和方向,以达到所需的性能,并使零件厚度最小化. 重量, 成本和刚度最大化,根据负载和金属嵌件可以牢固地嵌入后续附件的零件.



遵循生物启发设计的变形结构具有智能的能力,利用分布式传感器和执行器优化其形状. 在自然界中, 这种适应能力已经在许多物种中被观察到:例如,鸟类以复杂的方式塑造自己的身体形状和改变翅膀的配置,以适应当前的飞行阶段. 通过变形技术实现的彻底连续的气动形状改变可以局部提高流动控制效果,并提供显著的改进, for example to aircraft performance globally.

谁有冰球突破网站的研究人员开发了一种基于“鱼细胞”结构的新型机械超材料, capable of achieving zero Poisson’s ratio in two planar directions. 将零泊松比(ZPR)超材料集成到结构的层次结构中,可以适应和优化卓越的性能.

使用“鱼细胞”超材料作为柔性的“皮肤”或覆盖在结构上,因为它改变了形状,可以解决变形下的“刚度增强”问题,抵抗形状变化, as stress coupling will no longer exist. 这种“鱼细胞”超材料旨在消除在大变形下的刚度增强,而不会对邻近组件产生不良副作用.

“鱼细胞”超材料的应用为设计师提供了更大的灵活性,以创建需要大跨度的非平面弯曲扭转应用的结构, e.g. 飞机机翼在弯曲下,由于伸展-剪切耦合,这是一个非常重要的优点.

具有零泊松比特性的超材料可以非常有利于变形应用,因为它可以防止刚度的增加和抗断裂曲率, which provides better geometric conformability. 用零泊松比超材料替代传统的蜂窝结构,可以解决许多结构完整性问题. 主要的好处是最大限度地减少重量和最大化多功能,以减少材料需求和提高资源效率.


Multi-point fibre-linked gas sensors for industrial safety and process monitoring


谁有冰球突破网站开发了一种方法,可以同时测量多个点的气体浓度, 使用光纤, with a single fibre-coupled laser and photodetector, by combining tunable diode laser spectroscopy (TDLS) and range resolved interferometry (RRI). 紧密间隔的气体检测单元可以沿着纤维的长度部署,可以沿着单个气体管道定位,或者在单个过程或其他危险位置附近提供多点气体传感. 有可能大大降低每个测量点的成本,提高使用寿命和减少维护.




如果你的研究需要外部投资以使其具有商业可行性,mg游戏平台哪里下载可以支持成立一个分支公司. mg游戏平台哪里下载也有 business incubation facilities.

If you are in need of a new technology or require research to solve a business critical issue, please use the contact number above, 或对mg游戏平台哪里下载研究 and Innovation Office.